Structural analysis of human IgG-Fc glycoforms reveals a correlation between glycosylation and structural integrity

Krapp, S., Mimura, Y., Jefferis, R., Huber, Robert and Sondermann, P. 2003. Structural analysis of human IgG-Fc glycoforms reveals a correlation between glycosylation and structural integrity. Journal of Molecular Biology 325 (5) , pp. 979-989. 10.1016/S0022-2836(02)01250-0

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Abstract

Antibodies may be viewed as adaptor molecules that provide a link between humoral and cellular defence mechanisms. Thus, when antigen-specific IgG antibodies form antigen/antibody immune complexes the effectively aggregated IgG can activate a wide range of effector systems. Multiple effector mechanisms result from cellular activation mediated through a family of IgG-Fc receptors differentially expressed on leucocytes. It is established that glycosylation of IgG-Fc is essential for recognition and activation of these ligands. IgG antibodies predominate in human serum and most therapeutic antibodies are of the IgG class. The IgG-Fc is a homodimer of N-linked glycopeptide chains comprised of two immunoglobulin domains (Cγ2, Cγ3) that dimerise via inter-heavy chain disulphide bridges at the N-terminal region and non-covalent interactions between the C-terminal Cγ3 domains. The overall shape of the IgG-Fc is similar to that of a “horseshoe” with a majority of the internal space filled by the oligosaccharide chains, only attached through asparagine residues 297. To investigate the influence of individual sugar (monosaccharide) residues of the oligosaccharide on the structure and function of IgG-Fc we have compared the structure of “wild-type” glycosylated IgG1-Fc with that of four glycoforms bearing consecutively truncated oligosaccharides. Removal of terminal N-acetylglucosamine as well as mannose sugar residues resulted in the largest conformational changes in both the oligosaccharide and in the polypeptide loop containing the N-glycosylation site. The observed conformational changes in the Cγ2 domain affect the interface between IgG-Fc fragments and FcγRs. Furthermore, we observed that the removal of sugar residues permits the mutual approach of Cγ2 domains resulting in the generation of a “closed” conformation; in contrast to the “open” conformation which was observed for the fully galactosylated IgG-Fc, which may be optimal for FcγR binding. These data provide a structural rationale for the previously observed modulation of effector activities reported for this series of proteins.

Item Type:	Article
Date Type:	Publication
Status:	Published
Schools:	Biosciences
Publisher:	Elsevier
ISSN:	0022-2836
Last Modified:	24 Jun 2017 11:00
URI:	https://orca.cardiff.ac.uk/id/eprint/70200

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